Solution: Circular Array Loop

Explore how to use fast and slow pointers to detect cycles in a circular array of non-zero integers. Understand the method to identify cycles where movement direction remains consistent, with an optimized approach that avoids extra space and large time overhead. This lesson guides you through cycle detection logic, implementation details, and time-space complexity analysis for cycle detection in circular lists.

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Statement
Solution
- Naive approach
- Optimized approach using fast and slow pointers

Statement

There is a circular list of non-zero integers called nums. Each number in the list tells you how many steps to move forward or backward from your current position:

If nums[i] is positive, move nums[i] steps forward.
If nums[i] is negative, move nums[i] steps backward.

As the list is circular:

Moving forward from the last element takes you back to the first element.
Moving backward from the first element takes you to the last element.

A cycle in this list means:

You keep moving according to the numbers, and you end up repeating a sequence of indexes.
All numbers in the cycle have the same sign (either all positive or all negative).
The cycle length is greater than 1 (it involves at least two indexes).

Return true if such a cycle exists in the list or false otherwise.